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Pancreatic Neoplasms: HELP
Articles by M. Reichert
Based on 2 articles published since 2010
(Why 2 articles?)
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Between 2010 and 2020, M. Reichert wrote the following 2 articles about Pancreatic Neoplasms.
 
+ Citations + Abstracts
1 Article HDAC1 and HDAC2 integrate the expression of p53 mutants in pancreatic cancer. 2017

Stojanovic, N / Hassan, Z / Wirth, M / Wenzel, P / Beyer, M / Schäfer, C / Brand, P / Kroemer, A / Stauber, R H / Schmid, R M / Arlt, A / Sellmer, A / Mahboobi, S / Rad, R / Reichert, M / Saur, D / Krämer, O H / Schneider, G. ·II. Medizinische Klinik, Technische Universität München, München, Germany. · Department of Toxicology, University of Mainz Medical Center, Mainz, Germany. · Institute of Biochemistry and Biophysics/Center for Molecular Biomedicine (CMB), Friedrich-Schiller-University Jena, Jena, Germany. · Molecular and Cellular Oncology/ENT, University Medical Center Mainz, Mainz, Germany. · Laboratory of Molecular Gastroenterology and Hepatology, 1st Department of Internal Medicine I, University Hospital Schleswig-Holstein, Kiel, Germany. · Institute of Pharmacy, Department of Pharmaceutical Chemistry I, Faculty of Chemistry and Pharmacy, University of Regensburg, Regensburg, Germany. · German Cancer Research Center (DKFZ) and German Cancer Consortium (DKTK), Heidelberg, Germany. · Division of Gastroenterology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, USA. ·Oncogene · Pubmed #27721407.

ABSTRACT: Mutation of p53 is a frequent genetic lesion in pancreatic cancer being an unmet clinical challenge. Mutants of p53 have lost the tumour-suppressive functions of wild type p53. In addition, p53 mutants exert tumour-promoting functions, qualifying them as important therapeutic targets. Here, we show that the class I histone deacetylases HDAC1 and HDAC2 contribute to maintain the expression of p53 mutants in human and genetically defined murine pancreatic cancer cells. Our data reveal that the inhibition of these HDACs with small molecule HDAC inhibitors (HDACi), as well as the specific genetic elimination of HDAC1 and HDAC2, reduce the expression of mutant p53 mRNA and protein levels. We further show that HDAC1, HDAC2 and MYC directly bind to the TP53 gene and that MYC recruitment drops upon HDAC inhibitor treatment. Therefore, our results illustrate a previously unrecognized class I HDAC-dependent control of the TP53 gene and provide evidence for a contribution of MYC. A combined approach targeting HDAC1/HDAC2 and MYC may present a novel and molecularly defined strategy to target mutant p53 in pancreatic cancer.

2 Article Kras(G12D) induces EGFR-MYC cross signaling in murine primary pancreatic ductal epithelial cells. 2016

Diersch, S / Wirth, M / Schneeweis, C / Jörs, S / Geisler, F / Siveke, J T / Rad, R / Schmid, R M / Saur, D / Rustgi, A K / Reichert, M / Schneider, G. ·II. Medizinische Klinik, Technische Universität München, München, Germany. · Division of Translational Solid Tumor Oncology, German Cancer Consortium (DKTK), partner site Essen and German Cancer Research Center (DKFZ), Heidelberg, Germany. · Division of Gastroenterology, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, USA. · Department of Medicine, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, USA. · Department of Genetics, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, USA. · Abramson Cancer Center, Perelman School of Medicine, University of Pennsylvania, Philadelphia, PA, USA. ·Oncogene · Pubmed #26592448.

ABSTRACT: Epidermal growth factor receptor (EGFR) signaling has a critical role in oncogenic Kras-driven pancreatic carcinogenesis. However, the downstream targets of this signaling network are largely unknown. We developed a novel model system utilizing murine primary pancreatic ductal epithelial cells (PDECs), genetically engineered to allow time-specific expression of oncogenic Kras(G12D) from the endogenous promoter. We show that primary PDECs are susceptible to Kras(G12D)-driven transformation and form pancreatic ductal adenocarcinomas in vivo after Cdkn2a inactivation. In addition, we demonstrate that activation of Kras(G12D) induces an EGFR signaling loop to drive proliferation. Interestingly, pharmacological inhibition of EGFR fails to decrease Kras(G12D)-activated ERK or PI3K signaling. Instead our data provide novel evidence that EGFR signaling is needed to activate the oncogenic and pro-proliferative transcription factor c-MYC. EGFR and c-MYC have been shown to be essential for pancreatic carcinogenesis. Importantly, our data link both pathways and thereby explain the crucial role of EGFR for Kras(G12D)-driven carcinogenesis in the pancreas.